The most severe acidic deposition event in a small, remote, high-altitude catchment in the Cairngorm Mountains, Scotland (Reference Brimblecombe, Tranter, Abrahams, Blackwood, Davies and VincentBrimblecombe and others 1985), during the period from January to May 1984, was a snowfall of pH 3.0, characterized by its distinctive black appearance (Reference Davies, Abrahams, Tranter, Blackwood, Brimblecombe and VincentDavies and others 1984). The particulate loading of the snowfall was around 0.01 g 1⁻¹ of melted snow, and the particulates consisted of a large proportion of pulverized fuel ash and black carbonaceous residue. High concentrations of Pb, Mn and Zn were found in the particulates (1530, 4960 and 9830 ppm respectively). The solute load of the snow-melt was predominantly H⁺, Cl⁻, NO¹ ₃ and SO^2- ₄, with small amounts of the other major cations. Acetate and perhaps methane sulphonic acid have also been detected. Of particular interest is the molar ratio of non-sea-salt sulphate : non-sea-salt chloride : nitrate, which was 1.04 : 1.00 : 1.71. Transport in association with an inversion layer at 1000 to 1500 m is likely to be the mechanism by which heavily polluted air reached the catchment from several hundred kilometres to the south. Cycling of air through cumulus circulations may have led to large volumes of air containing high particulate concentrations becoming available for scavenging by snow.

Other snowfalls of low pH (3.5, 3.6, 3.6) also appear to have been associated with heavier and darker particulate loadings, while the least acidic snowfalls (pH 4.5, 4.6, 4.8) have been associated with low particulate loadings, which are pale grey in appearance. Investigations are underway to determine the relationship between pH and the carbonaceous content/particulate loading, to examine elemental compositions and to perform trajectory analysis of all snowfalls monitored in order to determine likely source regions for the pollution and to determine the transport mechanisms.